JKCI
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the Korea Concrete Institute
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ISSN : 1229-5515 (Print)
ISSN : 2234-2842 (Online)
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Journal of the Korea Concrete Institute
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J Korea Concr Inst.
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2023-08
(Vol.35 No.4)
10.4334/JKCI.2023.35.4.379
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REF
References
1
ACI Committee 209 (2008) Prediction of Creep, Shrinkage, and Temperature Effects in Concrete Structures (ACI 209R-08). Farmington Hills, Michigan, USA: American Concrete Institute (ACI). 4-12.
2
Bernard, E., Dauzères, A., and Lothenbach, B. (2018) Magnesium and Calcium Silicate Hydrates, Park II:Mg-Exchange at the Interface “Low-pH” Cement and Magnesium Environment Studied in a C-S-H and M-S-H Model System. Applied Geochemistry 89, 210-218.
3
Bernard, E., Lothenbach, B., Rentsch, D., Pochard, I., and Dauzères, A. (2017) Formation of Magnesium Silicate Hydrates (M-S-H). Physics and Chemistry of the Earth 99, 142-157.
4
Carino, N. J., and Tank, R. C. (1992) Maturity Functions for Concretes Made with Various Cements and Admixtures. ACI Materials Journal 89(2), 188-196.
5
Choi, Y. C., and Choi, S. C. (2015) Alkali-silica Reactivity of Cementitious Materials Using Ferro-Nickel Slag Fine Aggregates Produced in Different Cooling Conditions. Construction and Building Materials 99, 279-287.
6
Huang, Y., Wang, Q., and Shi, M. (2017) Characteristics and Reactivity of Ferronickel Slag Powder. Construction and Building Materials 156, 773-789.
7
Jo, S. A., Yoo, J. H., and Park, S. S. (2019) Evaluation of Strength and Durability of Mortar Using Ferronickel Slag Powder and Admixtures. Journal of Korean Recycled Construction Resources Institute 7(3), 262-270.
8
KATS (2017) Standard Test Method for Bulk Specific Gravity, Water Content, Absorption and Compressive Strength of Cellular Concrete (KS F 2459). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)
9
KATS (2019) Foamed Concrete for Cast-in-Site (KS F 4036). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)
10
KATS (2022) Aggregates for Concrete (KS F 2527). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)
11
Kim, H., and Ann, K. Y. (2019) A Study on the Hydration Behavior and Porosimetry of Ferronickel Slag Powder in Cement Paste. Journal of the Korea Concrete Institute 31(2), 181-189. (In Korean)
12
Kim, Y. U., Kim, D. B., and Choi, S. J. (2018) An Experimental Study on the Setting Time and Compressive Strength of Mortar Using Ferronickel Slag Powder. Journal of the Korea Institute of Building Construction 18(6), 551-558. (In Korean)
13
Kong, J. Y., Kang, H. N., and Chun, B. S. (2010) Characteristics of Uncofined Compressive Strength and Flow in Controlled Low Strength Materials Made with Coal Ash. Journal of the Korean Geotechnical Society 26(1), 75-83. (In Korean)
14
Lee, S. H., Yong, W. J., and Park, J. J. (2003) A Study on the Sound Absorption Properties of Cellular Concrete with Continuous Voids. Journal of the Korea Concrete Institute 15(4), 566-573. (In Korean)
15
Lee, S. Y., Jung, H. S., Kwon, S. H., Lim, D. S., and Kong, J. Y. (2018) Development and Field Application of Fluid Filler for Emergency Recovery Using Bottom Ash and Gypsum. Magazine of Korean Recycled Construction Resources Institute 13(3), 22-31. (In Korean)
16
Mehta, P. K., and Monteiro, P. J. M. (1993) Concrete: Microsturcture, Properties, and Materials Fourth Edition. USA: McGraw-Hill Education. 675.
17
Mirghiasi, Z., Bakhtiari, F., Darezereshki, E., and Esmaeilzadeh, E. (2014) Preparation and Characterization of CaO Nano- particles from Ca(OH)2 by Direct Thermal Decomposition Method. Journal of Industrial and Engineering Chemistry 20, 113-117.
18
Mun, J. S. (2016) Generalized Model for Compressive Strength Development of Concrete considering the Addition of Supplementary Cementitious Materials and Curing Temperatures. Ph.D. Thesis. Kyonggi University. (In Korean)
19
Neville, A. M. (2011) Properties of Concrete Fifth Edition. USA: Prentice Hall. 846.
20
Park, J. B., Yoon, H. S., and Yang, K. H. (2018) Evaluation of Cuting Conditions for Improving the Various Properties of Aerated Concrete Incorporation Slag Powder. Journal of Korea Institute of Building Construction 18(6), 527-532. (In Korean)
21
Park, S. H., Chu, Y. S., Song, H., Lee, J. K., and Seo, S. K. (2013) Fabrication of Mg(OH)2 from Ferro-Nickel Slag. Journal of the Korean Institute of Resources Recycling 22(1), 42-47. (In Korean)
22
Park, S. S. (2017) Strength and Resistance to Chloride Penetration in Mortar Containing Ferronickel Slag Powder by Vibrated and Rolled Manufacturing Method. Journal of the Korea Concrete Institute 29(6), 633-640. (In Korean)
23
Qoku, E., Bier, T. A., and Westphal, T. (2017) Phase Assemblage in Ettringite-Forming Cement Pastes: A X-Ray Diffraction and Thermal Analysis Characterization. Journal of Building Engineering 12, 37-50.
24
Rahman, M. A., Sarker, P. K., Shaikh, F. U. A., and Saha, A. K. (2017) Soundness and Compressive Strength of Portland Cement Blended with Ground Granulated Ferronickel Slag. Construction and Building Materials 140, 194-202.
25
Saha, A. K., and Sarker, P. K. (2017) Sustainable Use of Ferronickel Slag Fine Aggregate and Fly Ash in Structural Concrete Mechanical Properties and Leaching Study. Journal of Cleaner Production 162, 438-48.
26
Saul, A. G. A. (1951) Principles Underlying the Steam Curing of Concrete at Atmospheric Pressure. Magazine of Concrete Research 2(6), 127-140.
27
Sereenen, O. (2013) A Study on the Utilization of Mechanically Activated Ferro-Nickel Slag. Ph.D. Thesis. Suncheon National University. (In Korean)
28
Song, H. Y., Seo, J. B., Kang, S. K., Kim, I. D., Choi, B. W., and Oh, K. J. (2014) CO2 Fixation by Magnesium Hydroxide from Ferronickel Slag. Clean Technology 20(1), 42-50. (In Korean)
29
Won, J. P., and Lee, Y. S. (2001) Properties of Controlled Low- Strength Material Containing Bottom Ash. Journal of the Korean Concrete Institute 13(3), 294-300. (In Korean)
30
Yang, T., Wu, Q., Zhu, H., and Zhang, Z. (2017) Geopolymer with Improved Thermal Stability by Incorporating High-Magnesium Nickel Slag. Construction and Building Materials 155, 475-484.
31
Yang, T., Yao, X., and Zhang, Z. (2014) Geopolymer Prepared with High-Magnesium Nickel Slag: Characterization of Properties and Microstructure. Construction and Building Materials 59, 188-194.
32
Yoon, H. S., Yang, K. H., Kim, D. B., and Lee, D. S. (2022) Properties of High-Volume Ferronickel Slag Foamed Concrete. KCI 2022 Fall Conference. 2-4 November 2022. Jeju, Korea: Korea Concrete Institute (KCI). 24(2), 717-718. (In Korean)
33
Yoon, S. G., and Kwoun, T. H. (2022) The Properties of Concrete Repair Mortar Using Ferro-Nickel Slag Fine Aggregate. Journal of the Korea Concrete Institute 34(5), 557-565. (In Korean)
